Status and conservation of the Eurasian lynx (Lynx lynx) in

Transcription

KORA Bericht Nr. 19 e
Juni 2004
ISSN 1422-5123
Status and conservation
of the Eurasian lynx (Lynx lynx)
in Europe in 2001
KORA
Koordinierte Forschungsprojekte zur Erhaltung und zum Management der Raubtiere in der Schweiz
Coordinated research projects for the conservation and management of carnivores in Switzerland
Projets de recherches coordonnés pour la conservation et la gestion des carnivores en Suisse
KORA, Thunstrasse 31, CH-3074 Muri. Tel +41-31-951 70 40, Fax +41-31-951 90 40, Email: [email protected], http://www.kora.unibe.ch
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Lynx Survey Europe 2001
KORA Bericht Nr. 19 englisch:
Status and conservation of the Eurasian lynx (Lynx lynx) in Europe in 2001
Bearbeitung
Adaptation
Editorship
Manuela von Arx, Christine BreitenmoserWürsten, Fridolin Zimmermann and
Urs Breitenmoser
Bezugsquelle
Source
Source
KORA, Thunstrasse 31, CH-3074 Muri
T +41 31 951 70 40 / F +41 31 951 90 40
[email protected]
Titelzeichnung
Frontispiece
Cover drawing
Jacques Rime
Online Version ELOIS (Eurasian Lynx Online Information System for Europe):
http://www.kora.unibe.ch/en/proj/elois/online/index.html
The report is also available on CD-Rom at KORA (details see above).
Anzahl Seiten/Pages: 330
ISSN 1422-5123
© KORA Juni 2004
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Lynx Survey Europe 2001
Status and conservation
of the Eurasian lynx (Lynx lynx)
in Europe in 2001
Edited by:
Manuela von Arx, Christine Breitenmoser-Würsten, Fridolin Zimmermann, Urs Breitenmoser
With the contribution of (in alphabetic order):
Zanete Andersone, Henrik Andrén, Dragan Angelovski, Linas Balciauskas, Andriy-Taras Bashta,
Ferdinand Bego, Urs Breitenmoser, Christine Breitenmoser-Würsten, Henrik Brøseth, Ludek Bufka,
Marco Catello, Jaroslav Cerveny, Igor Dyky, Thomas Engleder, Michael Fasel, Martin Forstner,
Christian Fuxjäger, Peter Genov, Constantinos Godes, Tomislav Gomercic, Eva Gregorova, Gennady
Grishanov, Pavel Hell, Ulf Hohmann, Miso Hristovski, Djuro Huber, Thomas Huber, Ditmar
Huckschlag, Ovidiu Ionescu, Thomas A.M. Kaphegyi, Ursula Kaphegyi, Ilpo Kojola, Josip Kusak, Jens
Laass, Olof Liberg, John Linnell, Ivica Lucic, Eric Marboutin, Marta Markus, Pierre Migot, Miroljub
Milenkovic, Paolo Molinari, Nationalparkverwaltung Harz (Ole Anders & Meike Hullen), Henryk
Okarma, Agnieszka Olszanska, Janis Ozolins, Maria Panayotopoulou, Milan Paunovic, Peter Pilinsky,
Holm Riebe, Vadim Sidorovich, Vlado Soldo, Philippe Stahl, Cvetko Stanisa, Laszlo Szemethy, Yuriy
Tkachuk, Ivan Valach, Harri Valdmann, Jean-Michel Vandel, Manfred Wölfl, Sergiy Zhyla, Diana
Zlatanova, Haki Zoto
to whom we thank very much for their collaboration
This report is also available online as ELOIS (Eurasian Lynx Online Information System for Europe:
http://www.kora.unibe.ch/en/proj/elois/online.index.html
or on CD-Rom
This status report inclusive ELOIS was possible thanks to financial assistance from WWF Switzerland
We suggest to cite the country reports as chapters like:
Bego, F. & Zoto, H. 2004: Albania. In: Status and conservation of the Eurasian lynx (Lynx lynx) in Europe in 2001.
Ed. by M. von Arx, Ch. Breitenmoser-Würsten, F. Zimmermann and U. Breitenmoser, KORA Bericht No. 19.
Lynx Survey Europe 2001 – Table of contents
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Table of contents
1. Introduction .......................................................................................................................6
2. Species Information ..........................................................................................................8
2.1. Description and morphology.............................................................................................8
2.2. Phylogenetic history and subspecies...........................................................................9
2.3. Eurasian lynx in captivity in Europe ...........................................................................11
2.4. Biology and life history...............................................................................................11
2.5. Lynx and humans ......................................................................................................13
3. Material and Methods......................................................................................................16
3.1. Reference file countries .............................................................................................19
3.2. Reference file populations .........................................................................................23
4. Countries..........................................................................................................................26
Albania..............................................................................................................................27
Austria ..............................................................................................................................33
Belarus .............................................................................................................................41
Bosnia-Herzegovina .........................................................................................................45
Bulgaria ............................................................................................................................50
Croatia ..............................................................................................................................57
Czech Republic.................................................................................................................64
Estonia..............................................................................................................................71
Finland ..............................................................................................................................78
France ..............................................................................................................................86
FYR Macedonia ................................................................................................................94
Germany .........................................................................................................................100
Greece ............................................................................................................................110
Hungary ..........................................................................................................................115
Italy .................................................................................................................................120
Kaliningrad (Russia) .......................................................................................................126
Latvia ..............................................................................................................................130
Liechtenstein...................................................................................................................137
Lithuania .........................................................................................................................140
Norway............................................................................................................................146
Poland ............................................................................................................................154
Romania .........................................................................................................................161
Serbia and Montenegro ..................................................................................................168
Slovakia ..........................................................................................................................176
Slovenia ..........................................................................................................................184
Sweden...........................................................................................................................191
Switzerland .....................................................................................................................198
Ukraine ...........................................................................................................................206
Lynx Survey Europe 2001 – Table of contents
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5. Populations....................................................................................................................214
Nordic population............................................................................................................215
Baltic population .............................................................................................................222
Carpathian population.....................................................................................................230
Balkan population ...........................................................................................................239
Dinaric population ...........................................................................................................246
Bohemian-Bavarian population.......................................................................................252
Alpine population ............................................................................................................258
Jura population ...............................................................................................................266
Vosges-Palatinian population .........................................................................................272
Additional lynx occurrences ............................................................................................277
6. Europe ............................................................................................................................287
6.1. Development of the lynx distribution area 1960-2001 .............................................287
6.2. Populations ..............................................................................................................292
6.3. Legal status .............................................................................................................293
6.3.1. European treaties...............................................................................................293
6.3.2. Legal status and management...........................................................................294
6.3.3. Harvest and other known losses........................................................................295
6.4. Population size ........................................................................................................296
6.5. Depredation, compensation, prevention ..................................................................298
6.6. Monitoring and research ..........................................................................................299
6.7. Threats.....................................................................................................................300
7.Conclusions....................................................................................................................301
Contacts .............................................................................................................................303
Literature............................................................................................................................307
Appendices ........................................................................................................................318
Legend to the maps ........................................................................................................318
Questionnaire .................................................................................................................319
Lynx Survey Europe 2001 - Introduction
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1. Introduction
In the year 2000, the Council of Europe published action plans for the conservation of all of Europe’s large carnivore species. These plans, compiled under the guidance of the Large Carnivore Initiative for Europe (LCIE), were
thoroughly reviewed by experts, the Bern Convention Contracting Parties, the European Commission and EU
governmental experts. The action plans list conservation activities proposed for each range country, and national
institutions are encouraged to develop national management or conservation plans, and to establish international
co-operation between countries sharing populations. To do so, GOs and NGOs involved in the development of
conservation concepts need up-to-date information allowing them to look beyond national borders. With this update of the lynx status report for Europe west of Russia, we want to provide such information. The Action Plan for
the Conservation of the Eurasian Lynx in Europe (BREITENMOSER et al. 2000) was based on data up to 1995. This
new report presents data up to 2001 (with some more recent observations), allowing seeing what has changed –
and what has not. Different to prior status reports, we try an assessment of the populations. Obviously, conservation and management units are the countries (or even administrative units of the countries). The biological units,
however, are the populations, and for a sound conservation and management, we must adjust national strategies
to the viability of the population as a whole. In most of the cases, a metapopulation approach would be the adequate conservation concept. Several of the European lynx populations or subpopulations are threatened, and
some of them will only survive if neighbouring countries work closely together. This report hopefully helps to focus
on the populations.
The Eurasian lynx (Lynx lynx), once widespread across Europe, has reached the minimum of its historic distributh
tion on this continent during the first decades of the 20 century. Around 1950, the general downward trend came
to a halt. On one hand, the ecological conditions for the presence of the species started to improve, as large scale
deforestation stopped and roe deer as the most important prey species made a never-seen comeback across
Europe. On the other hand, human attitudes changed: Lynx was granted legal protection, or at least a controlled
hunting aiming for the management rather than the eradication of the species. In the 1960s and 1970s, lynx became a subject of first publications. The obvious recovery of the species in Scandinavia – mainly Sweden – led to
first research projects. An expansion of the species’ range in the north-western Carpathians prompted several
publications, and re-introduction attempts in several Alpine countries triggered increasingly public awareness.
In those years, a first series of reports on the status of the species in Europe were compiled and published. On
request of the World Conservation Union (IUCN) and the World Wide Fund for Nature (WWF), a group of wildlife
biologists under the lead of Josef Kratochvil reviewed the history of the lynx in Europe (KRATOCHVIL et al. 1968a)
and its contemporary status in the range countries (KRATOCHVIL et al. 1968b). About ten years later, SMIT & VAN
WIJNGAARDEN (1976) produced a report in behalf of the Council of Europe. Then, as a result of the re-introductions
of lynx in Germany, Austria, and France, three symposia were organised. The respective proceedings (WOTSCHIKOWSKY 1978, FESTETICS 1980, and KEMPF et al. 1979) reviewed the recent status of the species in Europe. Again
ten years later, BREITENMOSER & BREITENMOSER-WÜRSTEN (1990) compiled, in behalf of the Bern Convention Secretary, data on the status of the lynx in all Council of Europe member states by means of a questionnaire. This
inquiry was repeated five years later. The results were however not immediately published, as at that time, the
Large Carnivore Initiative for Europe (LCIE) started to work on Conservation Action Plans for all of Europe’s large
carnivores. The report, a joint endeavour of WWF and the Council of Europe/Bern Convention, was finally published as the Action Plan for the Conservation of the Eurasian Lynx in Europe (“European Action Plan”, BREITENMOSER et al. 2000).
This present report is an update of the 1995 inquiry. As in the 1990 and 2000 reports, lynx experts in all European
range countries (see Contacts) have been asked to provide information by means of a standardised questionnaire. This questionnaire (see Appendix) was altered from the earlier ones, mainly to make it more compatible
with the standards used for the Species Information Service (SIS) presently built up under the lead of the IUCN.
The data gathered are presented in a very strict, standardised form for each country, in order to allow a straightforward comparison of information. The report should present what is known, but also disclose what is not known.
We chose the form of a status report rather than an action plan, although for each country, urgent conservation
actions as proposed by the contacts are listed (Table 8 of the country reports).
In addition to the country reports, we try to make an assessment of the populations. There is not a single lynx
population in Europe, which is or will be restricted to one country alone. All populations we can today consider as
viable expand across international borders and hence require an international approach in practical management.
None of the isolated occurrences within the boundaries of one country is viable in the long-term. Such occurrences should be considered under a metapopulation concept, and will be, as a consequence, subpopulations of
a distribution area stretching over several countries. For the identification of the populations or metapopulations,
we followed largely the European Action Plan 2000. Some of the metapopulations include several separated subpopulations belonging to the same habitat region (e.g. the Alps), other areas were, for practical reasons, split into
two or several populations, although there is no interruption in the distribution of the species today (e.g. the Nordic
and the Baltic populations). In some cases, as for the separation of the Dinaric and the Balkan populations, we
have based our decision on taxonomic considerations as explained in chapter 2.2.
Lynx Survey Europe 2001 - Introduction
7
The report presents all European countries west of Russia. We have however considered Russia for the distribution map of the species in Europe. Russian colleagues have recently published an extensive review of the situation of the species in Russia and the states of the former USSR (MATYUSHKIN & VAISFELD 2003). All data concerning Russia were taken from this book. Furthermore, we have not considered the historic range countries where
the species is presently extinct (including Turkey, where the species still exists in the Asian part of the country).
There were some anecdotal reports on lynx observation in recent years even outside the range countries as defined for this report, e.g. from Belgium, Denmark, the Netherlands and England. We did not consider such reports,
as no reliable information is available and the observations most likely stem from captive bred lynx escaped or
released to the wild.
The European Lynx Online Information System (ELOIS) is directly accessible through the homepages of the LCIE
(www.large-carnivores-lcie.org) and KORA (www.kora.unibe.ch). Furthermore, the status report is published as
KORA Bericht No. 19 (PDFs available on the KORA website or on CD ROM). Ordering information is to be found
on the websites of the LCIE and KORA.
References:
BREITENMOSER, U. & BREITENMOSER-WÜRSTEN, CH. 1990: Status, Conservation Needs and Re-introduction of the
Lynx Lynx lynx in Europe. Council of Europe, Nature and Environment Series, Strasbourg, No. 45: 1-43.
BREITENMOSER, U. , BREITENMOSER-WÜRSTEN, CH., OKARMA, H., KAPHEGYI T., KAPHEGYI-WALLMANN, U. & MÜLLER,
U. 2000: Action Plan for the Conservation of the Eurasian lynx in Europe (Lynx lynx). Nature and environment
No. 112, Council of Europe Publishing, Strasbourg: 1-70.
FESTETICS, A. 1980: Der Luchs in Europa. Kilda Verlag, Greven: 356 pp.
KEMPF, C., BALESTRERI, A., WOTSCHIKOWSKY, U. & FERNEX, M. 1979: Chez nous, Le Lynx? Mythes et réalité. Les
Guides GESTA, Paris: 152 pp.
KRATOCHVIL, J. et al. 1968a: History of the distribution of the lynx in Europe. Acta sc. nat. Brno 4: 1-50.
KRATOCHVIL, J. et al. 1968b: Recent distribution of the lynx in Europe. Acta sc. nat. Brno 5/6: 1-74.
WOTSCHIKOWSKY, U. 1978: Der Luchs - Erhaltung und Wiedereinbürgerung in Europa. Druckerei Bernhard, Mammendorf: 163 pp.
MATYUSHKIN, YE.N. & VAISFELD, M.A. (Eds.) 2003: The Lynx – Regional Features of Ecology, Use and Protection.
Moscow Nauka 2003: 527 pp.
SMIT, C. J. & VAN WIJNGAARDEN A. 1976: Threatened mammals in Europe, Chapter 18: Lynx lynx. European
Committee for the Conservation of Nature and Natural resources, Council of Europe, Strasbourg: 4 pp.
8
Lynx Survey Europe 2001 – Species Information
2. Species information
This chapter provides background information relevant to the conservation and management of the Eurasian lynx
in Europe. It summarises the species' phylogeny, biology, morphology and ecology and its relation to humans, but
neither exhaustively nor in a fully referenced form. The information is taken from introductory chapters of the
European Action Plan (BREITENMOSER et al. 2000), with some updates from the newer scientific literature. Several
monographs, both scientific and popular, are today available in various languages – none of them in English, but
SUNQUIST & SUNQUIST (2002) provide a brief overview of the species with a good list of references.
2.1. Description and morphology
The Eurasian lynx (Lynx lynx Linnaeus, 1758; order Carnivora;
family Felidae) is the third largest predator in Europe, after the
brown bear and the wolf. It is the largest felid of our continent,
twice the weight of the Iberian lynx (Lynx pardinus) and 3-4
times that of the wildcat (Felis silvestris). The appearance of the
lynx is very characteristic (Fig. 2.1); it has long legs and large
feet, a round head with a short neck, triangular ears with black
tufts, and a short black-tipped tail. The flared facial ruff is often
very prominent.
Fig. 2.1. Eurasian lynx, subspecies L. l. carpathicus
in the Swiss Alps. The picture was taken by means
of a camera trap used for a monitoring programme.
(© KORA)
The claws are sharp, strong, and
hooked; especially the claws of the
front feet are perfect tools to seize
prey. The claws are retractile to
keep them sharp, and hence they
do normally not mark in the footprint
(Fig. 2.2).
All lynxes belong to the spotted cats. However, pelt colour is very variable within and
between different parts of the distribution range. The coat is greyish with different tints
(rusty, yellowish, or reddish) at the back and flanks, but whitish at the belly. There are
four major coat patterns: Large spots, small spots, rosettes, and unspotted (Fig. 2.3;
THÜLER 2002).
Fig. 2.2. Lynx tracks.
(© F. Zimmermann, KORA)
Fig. 2.3. Types of pelt pattern of Eurasian lynx as identified by THÜLER (2002):
(a) large spots, (b) small spots, (c) rosettes, (d) unspotted. (© KORA)
Sexual dimorphism is pronounced in
lynx, males being larger than females.
Lynx from northern and eastern regions
are larger than individuals from more
southern latitudes or the west. This
general pattern is however blurred by
the differences between subspecies.
Lynx from the Carpathians, for example, are relatively large, although they
belong – within the species' total range
– rather to the western and southern
parts of the species’ area. Body mass
of adults ranges between 12-35 kg (information about weights of lynx over 40
kg are doubtful). Total body length is
70-130 cm; shoulder height about 65
cm.
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The snout is short, giving the skull a round and high shape (Fig.
2.4), granting a high biting force of the canines. The intermediate
part of the skull between the facial part and the brain-case is very
small, and the skull crests most often poorly developed. The
mandible is short and massive with a wide ramus and strong
processes. Lynx have 24 deciduous and 28 permanent teeth.
The dental formula is:
I
3
1
2
1
C
P
M
= 28
3
1
2
1
Fig. 2.4. Skull of an adult male lynx from the Swiss
Alps. (© Ch. Breitenmoser-Würsten, KORA)
2.2. Phylogenetic history and subspecies
The lynx-like cats are united in one genus (Lynx) with four species (lynx, pardinus, rufus, and canadensis). They
occur nowadays in the northern hemisphere only: L. lynx and L. pardinus in the Palaearctic, L. rufus and L. canadensis in the Nearctic. Lynx pardinus, the Iberian lynx, was always restricted to the Iberian Peninsula south of the
Pyrenees, whereas the entire remaining area in the Old World from the Atlantic coast in Europe to the Pacific
Ocean in the Far East is generally regarded as the area of the Eurasian lynx (Lynx lynx). Over such an extended
range, stretching not only from west to east, but also from south to north across several climatic zones and different habitats, a differentiation on the level of subspecies is to be expected, not only due to the geographic (and
ecological) distance, but also as a consequence of the repeated isolation and merging of sub-areas during the
Pleistocene glaciations. The lynx distribution during the last ice age and the subsequent recolonisation of Europe
has to be considered for the reconstruction of the (pre)historic range as well as for the possible differentiation of
subspecies. Morphologic differences and palaeontologic and zoo-geographic considerations (MIRIC 1974, MIRIC
1978, MATJUSCHKIN 1978, WERDELIN 1981, HEMMER 1993, HEMMER 2001, MATYUSHKIN & VAISFELD 2003) are today
complemented with genetic findings (HELLBORG et al. 2002, BREITENMOSER-WÜRSTEN & OBEXER-RUFF 2003, RUENESS et al. 2003), but there is no final agreement on the classification of subspecies yet. From all these works, we
compile what we believe to be at present the best possible interpretation of the distribution of recent subspecies in
Europe (Fig. 2.5).
Fig. 2.5. Distribution of subspecies of the Eurasian lynx (Lynx lynx): LX: lynx (nominate form, northern Europe and western
Siberia), CA: carpathicus (Carpathians), MA: martinoi (Balkan), DI: dinniki (Caucasus), IS: isabellinus (Central Asia), WA:
wardi (Altai), KY: kozlovi (Sajan), WR: wrangeli (eastern Siberia), ST: stroganovi (Russian Far East). Brown dots: reintroduced populations in Europe (carpathicus). The area of dinniki shows the historic range; the present distribution is not
known, but strongly reduced and scattered. The distribution of isabellinus is proximate. Recent genetic works suggest that
there is a marked differentiation within the range of lynx. In Europe, the evolutionary history of the species is distorted by
human-made fragmentation and bottlenecks.
Assuming that the lynx’ ecology during the late Pleistocene was not completely different from the recent species
(chapter 2.4), we can speculate that the recolonisation followed the expansion of forests and prey. Some regions
10
that we today intuitively regard as “good” lynx habitat were also so during the late Pleistocene, other areas however were not. The Alps, for instance, were entirely glaciated and no living space for lynx. This mountain range
was likely recolonised from both opposite ends, and the now “homogenous” habitat complex is actually the suture
of two isolated Late Pleistocene habitat patches, so called glacial refuges. In contrast, the Carpathians were a
forest refuge during the last ice age (BURGA & PERRET 1998), and provided probably a better lynx habitat than the
surrounding cold steppe plains. Parallel to the “natural” recolonisation, large scale human activities such as deforestation have had an impact on the distribution of large mammals in Europe for at least 5000 years. Humancaused extinction or near-extinction, genetic bottlenecks and recolonisation – whether natural or artificial – have
altered not only the distribution, but also the genetic set-up of what may have been the original arrangement of
subspecies. As an example, HEMMER (1993) proposes that lynx recolonised Scandinavia in the Holocene from the
south (Denmark) and from the north (Finland). The genetic pattern of the recent lynx populations (Fig. 2.6) does
not support Hemmer’s hypothesis. This is however no proof that Hemmer was wrong; the reduction of the lynx
area and the subsequent recovery (JONSSON 1983) may have camouflaged phylogenetic differences within Scandinavia.
Carpathian Mts
Scandinavia
Balkans
Baltics/Finland
Siberia
Fig. 2.6. Genetic differentiation of lynx in Europe (BREITENMOSER-WÜRSTEN & OBEXER-RUFF 2003). Preliminary genetic
analyses confirm the subspecies status of the lynx from the Carpathians, depict a marked difference between the Scandinavian and the Finnish-Baltic populations, and indicate – with one specimen only – the special status of the Balkan population.
Considering all these aspects, we suggest to adopt the following subspecies of Lynx lynx in Europe for conservation purposes (Fig. 2.5): 1. Northern lynx (L. l. lynx), including the Fennoscandic, the Baltic and the Russian populations; 2. Carpathian lynx (L. l. carpathicus) in the Carpathian Mountains; and 3. Balkan lynx (L. l. martinoi), restricted to the south-western Balkan, mainly Albania and FYR Macedonia. Obviously, the extinct lynxes of the
western Alps and the Pyrenees (referred to as L. l. spelaeus) were distinct. This form may have stretched from
the Apennines (the place of origin) as far north-east as Scotland. HEMMER (2001) argued that the cave lynx was
rather a species (L. spelaeus) than a subspecies, spreading from the Italian refuge after the last ice age and forming a distribution range between the Eurasian lynx (L. lynx) and the Iberian lynx (L. pardinus); but this hypothesis
needs verification.
Lynx for the re-introductions in the Alps, the Vosges, the Dinaric, and the Bohemian-Bavarian Mountains were
taken from the Carpathian population; other occurrences are of unknown origin or – as in the German Harz Mountains and the Kampinoski national park in Poland – a mixture of zoo animals of very diffuse origin (see chapter
2.3). From the preliminary genetic analysis (Fig. 2.6), the differentiation of the European lynx populations is obvious. As this differentiation is not only the result of human-made fragmentation of the area, but reflects the phylogenetic history and local adaptations, we recommend careful selection of animals or source populations for further re-introductions. Furthermore, crossbreeding of subspecies in European zoos should be avoided. Certain
subspecies of lynx (e.g. the highly threatened Balkan lynx, L. l. martinoi, or the Caucasus lynx, L. l. dinniki) would
be in need of a conservation-breeding programme. The present situation in European zoos, however, is marked
by crossbreeding and inbreeding (chapter 2.3).
11
2.3. Eurasian lynx in captivity in Europe
Until recently, the European Association of Zoos and Aquariums (EAZA) kept no studbook for the Eurasian lynx.
As an increasing number of lynx from zoos were released to the wild in re-introduction programs (Kampinoski in
Poland, Harz in Germany), the necessity for a better management of the species and hence a studbook became
evident. Another argument for a more sensitive breeding of lynx in European zoos is the fact that not all subspecies of Lynx lynx have the same conservation status. The EAZA decided to start a studbook for the Eurasian lynx
in 2002. The status data, collected through the most recent EAZA Taxon Advisory Group Survey, were used as
starting point for the studbook. Intensive investigations by the studbook keeper Lars Versteege allowed completing many of the missing data (VERSTEEGE 2003). Additionally, historical data were collected from the participating
institutions. After a full year of research, the following data were available for 2002 (Table 2.1):
Tab. 2.1. Number of Eurasian lynx (Lynx lynx) in European zoos in 2002. The numbers in brackets represent males.females.sex unknown. Identification of the subspecies see Chapter 2.2 and Fig. 2.5.
Taxon
# Individuals
1.1.2002
# Individuals 31.12.2002 # Institutions
L. l. lynx
89 (38.47.4)*
89 (34.49.6)
L. l. kozlovi
3 (1.2)
2 (1.1)
L. l. wrangeli
50 (19.31)
50 (19.31)
20
L. l. carpathicus
30 (16.14)
31 (16.15)
13
L. l. wardi
3 (1.2)
3 (1.2)
L. lynx ssp.
112 (56.56)
116 (60.56)
49
Hybrid
27 (14.13)
27 (15.12)
12
Total
310 (144.162.4)
318 (143.165.6)
31
3
1
129
The numbers in Table 2.1 represent only a part of lynx in captivity in Europe, as only EAZA member zoos were
included. An unknown, but huge number of small animal parks and private facilities have lynx. In Switzerland, only
3 of 18 facilities known to keep lynx in the year 1998 were EAZA members (E. GAUTHIER, pers. comm.). After a
lynx of unknown origin had been killed in the south-eastern Black Forest, THOR & PEGEL (1992) investigated on
captive breeding facilities for lynx and found 8 only in the district of Freiburg (Baden-Württemberg, Germany).
These two anecdotal remarks illustrate how large the breeding potential for Eurasian lynx in captivity is, and that
the possibility of lynx to escape or to be intentionally released is considerable. All guidelines for the re-introduction
of animals (e.g. IUCN 1987, 1998) reject clandestine releases, and the use of hybrids, and warn about the use of
captive bred animals. In this respect, the scientifically lead and organised zoos have an apparent responsibility.
After the first year of EAZA’s data collection, a few things became very clear:
not all today recognised subspecies are represented. Especially the rare and endangered ones are missing in European zoos;
a fair number of animals have ancestry in different subspecies;
a large proportion of animals is of unknown taxonomic origin;
there is nowadays very little reproduction in the 129 institutions. In 2002, only eight kittens were born,
four of them were hybrids.
The assignment of the animals to a subspecies was done by the zoos and is not always based on knowledge of
the history of the animals. A screening of the captive population will be necessary to ensure its proper management in regard to the subspecies in the future. This would allow to set some priorities for breeding of Eurasian
lynx in European zoos and to concentrate the breeding efforts on the vulnerable or endangered subspecies.
2.4. Biology and life history
Habitat: The lynx inhabits forested areas is most of its range. Only the Central Asian subspecies L. l. isabellinus
lives in a treeless environment. In Europe, the lynx used to live in all types of forest from the Mediterranean hardleaved forest to the northern boreal forest. Today, the lynx is restricted to the remaining large forest complexes of
the continent. One important prerequisite for the recovery of the species was the expansion of forest in Europe
th
during the 20 century.
Land tenure system: Lynx are solitary living animals, except for females and the young of the year. Both males
and females occupy individual home ranges (“territories”), which they mark with gland secretions, urine and
maybe faeces. The females choose their territories according to prey and habitat resources they need to rise the
12
kittens, the males set up their territories to grant access to females. The home ranges of the males are larger than
those of females; they monopolise one or two, rarely more females. Consequently, home ranges of males overlap
to a certain extent, whereas ranges of females overlap only slightly, and sometimes do hardly touch. In Scandinavia, some mothers were observed to have totally overlapping home ranges with their daughters. Home range
sizes vary considerably depending on habitat type, composition of prey community, and availability of prey. Furthermore, reported home range size depends to a large extent with the method and duration of investigations. Ac2
cording to the literature, individual home range size ranges from 25-2000 km . Studies based on telemetry have
2
2
brought precise estimates of home range size of lynx in Europe: 180-2780 km for males and 98-759 km for females. The highest values were found in the northern or mountainous regions of Scandinavia. There is little seasonal variation in the home range size of males, but females occupy very small home ranges while nursing kittens
(late spring to summer). In Scandinavia, female lynx roamed over 33-100 km2 during the first eight weeks following birth, and then extended their home ranges gradually until winter. Mean distances travelled by lynx per night
ranged from 1-45 km. The highest movement activities are observed in males during the mating season. Females
with kittens, on the other hand, usually travel over short distances. When a lynx has a fresh kill, it stays in its proximity for several days. The activity pattern is determined by sunrise and sunset. Lynx are mainly active at dusk
and at night, and rest during daytime (Fig. 2.7), except for the rutting period when lynx are active also during daytime.
Feeding ecology: Prey of lynx ranges from mouse to moose.
However, the main prey of lynx are small ungulates and hares.
The genus Lynx is generally specialised in hunting lagomorphs,
the Eurasian lynx, however, has evolved into a hunter of small
ungulates in many parts of its range, most prominently in Europe.
Only in north-eastern Europe, mountain hares are the main prey.
From the ungulate guild, lynx select the smallest species: roe
deer (Fig. 2.8), chamois, musk deer. In northern Scandinavia,
semi-domestic reindeer are in some areas the most frequent
prey. Larger ungulates such as red deer, moose, or wild boar will
sporadically fall prey to lynx. In areas with low ungulate availability, lagomorphs, birds and rodents can be an essential prey part
Fig. 2.7. Carpathian lynx resting on a rock in
dense cover during daytime. (© U. Breitenmoser, KORA)
of lynx. Lynx diet varies seasonally; small prey and young ungulates are killed mostly in late spring and summer. Depredation on
livestock (sheep, goats, poultry) occurs occasionally, but more frequently in Norway (see country report and chapter 2.5).
A lynx’s consumption rate averages 1-2.5 kg of
meat per day. Wherever lynx prey on large ungulates (red deer, wild boar), the youngest prey category is selected. In roe deer, however, which has
the same body mass as the predator, all age and
sex categories are preyed upon. The impact of lynx
on prey populations has been widely and controversially disputed. Lynx do not eradicate their prey, but
in marginal habitat or in specific situations, the predation impact can be considerably. There is increasing evidence on lynx-prey relationships from scientific studies, but it is still difficult to fit all the local
and temporal studies into one general picture. At
the edge of the roe deer’s range in northern Europe,
lynx were able to kill 30% of the roe deer population
on a yearly basis. In Switzerland, re-introduced lynx
Fig. 2.8. Roe deer (Capreolus capreolus) is the lynx’ main prey in
Europe. The lynx kills with a bite to the throat and starts to eat at a were able to considerably reduce roe deer or chamhindquarter. (© U. Breitenmoser, KORA)
ois abundance in a certain situation. The system
can be very dynamic. In the north-western Swiss
Alps, lynx killed only 6-9% of the roe deer population in the mid-1980s; about ten years later, the predation impact
in the same area was estimated to be 36-39%. In Poland up to 36% of roe deer and 13% of red deer were taken
by lynx. The influence of lynx predation on a local ungulate community depends on the structure of the prey
community, age and sex structure of the ungulate population, number and social structure of the lynx population,
other causes of mortality and abiotic factors. It is today evident that lynx can show a considerable numerical and
functional response to changes in prey abundance and availability, and that consequently, lynx predation is an
important factor shaping the density, the distribution, and the behaviour of the main prey species.
Reproduction and mortality: Mating takes place from February to mid-April. Males follow the females to check
their reproductive status. Lynx have induced ovulation. Oestrus lasts about three days, and a male accompanies
the female all that time, and they copulate often. Birth takes place after 67-74 days, usually in late May. Litter size
varies from 1-5, but most often, 2-3 kittens are born. A newborn lynx cub weighs about 300 g. Kittens follow their
mother until the next mating season (Fig. 2.9). They leave the mother at an age of 10 months, when they have a
weight of 9-14 kg. Females are sexually mature at the age of two years, whereas males usually mate for the first
13
time when they are three years old. Lynx can be sexually active for a relatively long time; in nature, females reproduced at least until 14 years and males until 16-17 years.
Fig. 2.9. Female lynx with young (just before separation) in the Swiss Jura Mts.
(© F. Zimmermann, KORA)
The lynx has no natural enemies. Sporadic cases of lynx killed by wolves, wolverines, and tigers have been reported. A large prey animal – e.g. a chamois with its sharp hooked horns – can also fatally injure a lynx during the
hunt. Lynx can suffer from various parasites and diseases, such as rabies, sarcoptic mange or parvovirus. The
natural mortality among juvenile lynx is high, at least half of them do not reach adult age. Currently, the main mortality factors are man-caused such as traffic accidents, poaching or over-hunting. In nature, lynx were reported to
live up to 17 years, whereas in captivity, they can reach an age of 25 years. The medium age of resident animals
in a population is however much lower, about 4-5 years.
Demography and population dynamics: Under natural conditions, lynx density depends on prey availability and is
limited through social interactions among lynx. There is no evidence for the widespread belief that the number of
lynx is inversely correlated with the number of wolves in the area. In the cultivated landscape, man is the ultimate
2
2
limiting factor of lynx density. In Poland, lynx density (adults) ranged 1.9-3.2 indiv./100 km (2.8-5.2 indiv./100 km
2
including kittens). In Switzerland, density of independent individuals ranged 0.94-2.10 indiv./100 km . In southern
Norway, an area with a low roe deer abundance, a density of 0.25 indiv./100 km2 has been found. In a newly oc2
cupied area in south-central Sweden, lynx density was estimated to be around 1 indiv./100 km . In Poland, sex
ratio in the lynx population was 1:1. Adult males constituted 29% of all lynx, reproducing females 23%, kittens
35%, and subadults 12%. These numbers were found in field studies using radio-telemetry and other sophisticated methods such as camera trapping. When densities are calculated from the number of lynx estimated and
the area occupied, densities can be considerable higher (see country reports). However, such high densities may
rather be the consequence of an improper census method.
2.5. Lynx and humans
The lynx was and is less known and therefore even more mythical than other large carnivores, such as wolf and
brown bear. The elusive cat had the reputation to be a ferocious and merciless killer, probably because of the
typical silent and “unaffected” behaviour of the cats. Today, in most areas where several large carnivores coexist
with humans, the lynx is seen as a minor problem compared to the other predators. Lynx are no danger for people. Contrary to brown bear or wolf, there are not even anecdotes about man-eating lynx, though in old hunting
books, the lynx is said to be dangerous when wounded. The very few cases where lynx have injured humans
were all accidents with wounded, captured, or rabid lynx (one incident reported from Slovenia). There is no reliable report of a spontaneous attack of a lynx; even females pushed away from their litters do not defend their
cubs. They will, however, attack dogs approaching the kittens, even if people accompany the dog. The general
change in human attitudes to nature in general and towards carnivores in particular has also rehabilitated the
lynx. According to inquiries in western European countries, majorities of 70-80% have welcomed the return of the
lynx. However, most of the modern city dwellers do not live in and from the nature, and have a more idealistic
view of wild animals than the rural people. Traditional land users may still have a negative attitude towards lynx,
which roots mainly in two conflicts: hunters blame the lynx for reducing game abundance and availability, and
livestock breeders fear attacks on their herds.
14
All reviews of depredation by lynx concluded that livestock losses to lynx are relatively low compared with those to
other large predators, and that in most European countries, the lynx is not regarded as a major problem to livestock husbandry (see KACZENSKY 1996, 1998, 1999). The exception is Norway, where the number of sheep killed
by lynx has steadily increased over the past years and reached some 7’000-10’000 from 1996-2001 (see country
report). The second most important loss was reported from France, where 214 sheep were killed in the Jura
Mountains in 1999.
Depredation on sheep (Fig. 2.10) is a consequence of unattended pasturing in carnivore habitat. This form of sheep husbandry is typical for regions
where large predators were absent or scarce for a long time. In the reintroduced lynx populations in the Swiss Alps or in the French Jura Mountains, depredation caused severe public conflicts, although the number of
sheep killed by lynx were low compared to the total losses to other causes.
The problem was more psychological: farmers had lost the tradition of coexistence with large predators and did not accept the lynx as part of the
natural system. A problem specific to Norway, Sweden, and Finland is the
predation of lynx on semi-domestic reindeer. In 2001, 127 reindeer were
compensated as lynx kills in Finland; in Sweden there are yearly losses of
around 20’000-40’000 reindeer. In Norway, depredation on reindeer is extensive as well, however, there are no detailed data available (see country
reports). In Sweden, the state no longer compensates owners for the loss
of semi-domestic reindeer to lynx. Instead, the local reindeer management
association receives a payment for each confirmed presence of a family of
lynx on its grazing area.
Fig. 2.10. Lynx on a killed sheep. In
countries where the tradition to coexist
with large carnivores was never lost,
lynx depredation is not considered a
problem. Where lynx have recently recovered, however, depredation often
leads to controversies. (© Peter Zysset)
In all European countries were depredation by lynx occurs, compensation
schemes have been implemented to mitigate the conflict with livestock
breeders. This is a measure not only meant to support the acceptance of
lynx, but also because there is today a general agreement that those who live with the large carnivore – protected
by national laws and international treaties – should not need to suffer financial losses.
The more difficult problem both to assess and to handle is however the conflict with hunters. Although there is –
not surprisingly – very little confirmed information available, most of the contacts who have contributed to this
status report believe that illegal killings are the main cause of mortality (see country reports), and that illegal killings are related to the competition between the human hunter and the cat. CERVENY, KOUBEK & BUFKA (2002)
have provided interesting data on this problem for the Bohemian population (see country report Czech Republic).
To mitigate the conflict, it was suggested to allow for a limited harvest of a lynx population as soon as its status
would allow for it. There is, so far, no evidence that legal hunting has stopped illegal killing. On the other hand,
there is certain indication that, after lynx hunting was banned, illegal killings have increased, and the inquiry done
by CERVENY, KOUBEK & BUFKA (2002) revealed that the strict legal protection could be a source of conflict itself.
Wherever legally protected lynx and humans hunt for the same game animals, conflicts arise, and the shared use
of resources calls for compromises.
References:
BREITENMOSER, U., BREITENMOSER-WÜRSTEN, CH., OKARMA, H., KAPHEGYI, T., KAPHEGYI-WALLMANN, U., & MÜLLER,
U. M. 2000: Action Plan for the Conservation of the Eurasian Lynx (Lynx lynx) in Europe. Nature and environment No. 112, Council of Europe Publishing, Strasbourg: 1-70.
BREITENMOSER-WÜRSTEN, CH. & OBEXER-RUFF, G. 2003: Population and conservation genetics of two reintroducted lynx (Lynx lynx) populations in Switzerland – a molecular evaluation 30 years after translocation.
nd
Proceedings of the 2 Conference on the Status and Conservation of the Alpine Lynx Population (SCALP), 7-9
May 2003, Amden, Switzerland: 28-31.
BURGA, C. A. & PERRET, R. 1998: Vegetation und Klima der Schweiz seit dem jüngeren Eiszeitalter. Ott Verlag,
Thun: 805 pp.
CERVENY, J., KOUBEK, P. & BUFKA, L. 2002: Eurasian Lynx (Lynx lynx) and its chance for survival in Central
Europe: The case of the Czech Republic. Acta Zoologica Lituanica 12 (4): 362-366.
HELLBORG, L., WALKER, C.W., KNISPEL RUENESS, E., STACY, J.E., KOJOLA, I., VALDMANN, H., VILÀ, C., ZIMMERMANN,
B., JAKOBSEN, K.S. & ELLEGREN, H. 2002: Differentiation and levels of genetic variation in northern European
lynx (Lynx lynx) populations revealed by microsatellites and mitochondrial DNA analysis. Conservation Genetics 3: 97-111.
HEMMER, H. 2001: Die Feliden aus dem Epivillafranchium von Untermassfeld. Pages 699-782 in: Kahlke, R.-D.
(ed.): Das Pleistozän von Untermassfeld bei Meiningen (Thüringen), Teil 3. [Band 40, 3]. Römisch-
15
Germanisches Zentralmuseum - Forschungsinstitut für Frühgeschichte & Senckenbergische Naturforschende
Gesellschaft - Forschungsstation für Quartärpaläontologie Weimar. Monographien des Römisch-Germanischen
Zentralmuseums Mainz, Mainz.
HEMMER, H. 1993: Felis (Lynx) lynx - Luchs, Nordluchs. In: Handbuch der Säugetiere Europas, Niethammer, J. &
Krapp, F. (Ed.). Aula, Wiesbaden: 1119-1168.
IUCN 1987: The IUCN Position Statement on Translocation of living organisms. Introductions, Re-introductions
and Re-stocking. Prepared by the Species Survival Commission in collaboration with the Commission on Ecology, and the Commission on Environmental Policy, Law and Administration. As approved by the 22nd Meeting
of the IUCN Council, Gland, Switzerland, 4 September 1987: 1-13.
IUCN 1998: Guidelines for Re-introductions. Prepared by the IUCN/SSC Re-introduction Specialist Group. IUCN,
Gland, Switzerland and Cambridge, UK: 1-10.
JONSSON, S. 1983: Lodjur. Interpublishing AB, Stockholm: 124 pp.
KACZENSKY, P. 1996: Large carnivore - livestock conflicts in Europe. Munich Wildlife Society, Ettal: 106 pp.
KACZENSKY, P. 1998: Schadensaufkommen und Kompensationssysteme für Luchsschäden in Europa. Pages 4145 in: Reddemann (ed.): Der Luchs in Mitteleuropa. Schriftenreihe des Landesjagdverbandes Bayern e.V. Nr.
5, Feldkirchen.
KACZENSKY, P. 1999: Large carnivore depredation on livestock in Europe. Ursus 11: 59-72.
MATJUSCHKIN, E. N. 1978: Der Luchs. A. Ziemsen Verlag, Wittenberg Luthersadt: 160 pp.
MIRIĆ, D. 1974: Zur systematischen Stellung des Balkanluchses, Lynx lynx. Saeugetierk. Mitt. 22(3): 239-244.
MIRIĆ, D. 1978: Lynx lynx martinoi ssp. nova - neue Luchsunterart von der Balkanhalbinsel. Bull. museum hist.
nat. Belgrade 33: 29-36.
RUENESS, E. K., JORDE, P. E., HELLBORG, L., STENSETH, N. C., ELLEGREN, H., & JAKOBSEN, K. S. 2003: Cryptic
population structure in a large, mobile mammalian predator: the Scandinavian lynx. Molecular Ecology 12:
2623-2633.
SUNQUIST, M. & SUNQUIST, F. 2002: Wild cats of the world. The University of Chicago Press, Chicago: 452 pp.
THOR, G. & PEGEL, M. 1992: Zur Wiedereinbürgerung des Luchses in Baden-Württemberg. Wildforschungsstelle
Baden-Württemberg, Aulendorf, Band 2: 163 pp.
THÜLER, K. 2002: Spatial and temporal distribution of coat patterns of Eurasian lynx (Lynx lynx) in two reintroduced populations in Switzerland. KORA Bericht No. 13: 1-35.
VERSTEEGE L. 2003: Eurasian lynx (Lynx lynx) ESB Annual report 2002. Minutes of the EAZA Felid TAG meeting,
Leipzig, September 2003.
WERDELIN, L. 1981: The evolution of lynxes. Ann. Zool. Fennici 18: 37-71.
Lynx Survey Europe 2001 – Material and methods
16
3. Material and methods
The aims of the current survey were:
•
•
•
•
to update the status report for the years 1996-2001
to show trends compared to former surveys
to incorporate IUCN criteria and SIS authority files
to compile the country surveys into population assessments
To achieve these goals, the following approach was chosen:
Contacts:
In each of the European countries west of Russia with recent occurrences of the Eurasian lynx (Lynx lynx), a
wildlife expert assumed to have the relevant information for 1996-2001 was asked to participate in the inquiry.
These were either individuals who have already taken part in the 1995 inquiry (BREITENMOSER et al. 2000),
personal contacts or scientists known from their publications. After acceptance, the contacts were provided with a
questionnaire and raster maps (see below). If necessary, the contacts themselves asked for the assistance of
additional experts to get all information required. Russia has not been included in the survey, but information to
complete the distribution map was taken from MATYUSHKIN & VAISFELD (2003).
Questionnaire:
The contacts filled in an extended questionnaire for each country. The questionnaire (a MS Word or RTF file)
covered subjects like as status, distribution and development of the lynx population(s) within the country, legal
situation, harvest and losses of lynx, depredation on livestock, major threats to the population(s), conservation
measures, and a judgement of the population(s) (see Appendix). Threats, conservation measures, and criteria for
the judgement were adopted from the IUCN Species Information Service SIS, and the IUCN Red list, respectively
(see reference file countries). For all countries hosting parts of different populations, the contacts were requested
to provide information wherever possible for each population rather than for the whole country. The definition of
the populations were taken from the Eurasian Lynx Action Plan (BREITENMOSER et al. 2000, see also
“Introduction”).
Raster maps:
We used raster maps to describe the distribution of lynx rather than contour maps because experience from the
former inquiry had shown that raster maps produce better results: (1) raster maps are easier to standardise
because the rules are very simple and straight forward; (2) raster maps give a more coherent picture for transborder populations because the contacts must make a decision for each square covering the whole country; and
(3) raster maps allow for a minimum differentiation within the area occupied. Raster maps can furthermore be
transferred into habitat maps and potential distribution maps by means of a GIS habitat model. The disadvantage,
however, is that the size of the grid cell produces a certain diffuseness at the border of the distribution area, and
that it is time consuming for the contacts to fill in the map.
17
The contacts were provided with raster
maps of 10x10 km, produced with a
Geographical Information System (GIS;
ArcView 3.3) with the following features:
- Projection: Transverse Mercator, Clarke
1866, with the respective Central
Meridian.
- Digital background data: Bartholomew
Euro Maps.
È
- Layers used: contour, coastline,
international and major national
boundaries, urban areas, motorways,
lakes, large rivers, canals, and national
parks (definitions & legend see
Appendix).
For each grid cell the contacts indicated
presence of lynx according to the most
recent information available. The
following options were given:
[X] = constantly occupied area
(More than 50% of the cell are within the
area constantly occupied by lynx,
exclusive parts of the cell in a
neighbouring country, a lake or a built-up
area.)
[O] = single observation, confirmed
(One or more observations – direct
observations, tracks, kill, dead lynx –
have occurred in the most latest year.
The observation is trustworthy.)
È
[?] = single observation, not confirmed
(doubtful or not confirmed information)
The data provided by the contacts
were transferred into an ArcView
project, allowing for further analysis on
the population level (see reference file
populations and population reports).
Final maps (»)
18
Compilation and analysis of the information:
An MS Access database was established to compile all data and information from the questionnaires.
Uncertainties were cross-checked with the respective contacts. We produced standardised country reports (see
reference file countries), and assessed the status and distribution of the lynx within each country from the report,
the scientific literature available, and considering the reports from neighbouring countries in the case of crossborder populations. Data and information of the country reports were then compiled and summarized into
population reports (see reference file populations). To disclose trends, information from the former inquiry
(covering the years 1990-1995; BREITENMOSER et al. 2000) was included. For the population assessment, we
considered additional information from the literature, consistencies and discrepancies, respectively, between
countries, a judgement of the risk of extinction according to IUCN criteria, and finally recommended conservation
or management measures. These recommendations are a mixture of the combined judgement of the contacts for
each country sharing the population and the personal assessment of the editors of the whole report.
References:
BREITENMOSER, U., BREITENMOSER-WÜRSTEN, CH., OKARMA, H., KAPHEGYI, T., KAPHEGYI-WALLMANN, U., & MÜLLER,
U. M. 2000: Action Plan for the Conservation of the Eurasian Lynx (Lynx lynx) in Europe. Nature and
environment No. 112, Council of Europe Publishing, Strasbourg: 1-70.

Status and conservation of the Eurasian lynx (Lynx lynx) in

Transcription

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